M. Petríková scite author profile

The antiradical activity, protective effect against lipid peroxidation of liposomal membrane, and inhibitory effect on whole blood reactive oxygen species (ROS) liberation of Glycyrrhiza glabra crude extract and glycyrrhizin, its major compound, were assessed. The liquorice extract showed significant activity in all the three assay systems used in a dose dependent manner. It displayed remarkable reactivity with free stable 1,1'-diphenyl-2-picrylhydrazyl (DPPH) radical, inhibitory efficacy in peroxidatively damaged unilamellar dioleoyl phosphatidylcholine (DOPC) liposomes, and inhibition of ROS chemiluminescence, generated by whole blood, induced by both receptor-bypassing stimuli (PMA) and receptor operating stimuli (Opz) in the ranking order of stimuli PMA> Opz. These activities may be attributed to phenolic antioxidants involving isoflavan derivatives, coumarins and chalcones. Nonetheless, triterpene saponin glycyrrhizin exhibited no efficacy in the system of DPPH reaction and peroxidation of liposomal membrane, and negligible inhibition of chemiluminescence generated by inflammatory cells. These results indicate that the mechanism of anti-inflammatory effect of glycyrrhizin most probably does not involve ROS and this major constituent is not responsible for the inhibition effects of liquorice extract on neutrophil functions.

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Distribution of phenylethanolamine-N-methyltransferase in the rat heart: effect of 6-hydroxydopamine

Torda

Čulman

Petríková

1987

European Journal of Pharmacology

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Chloroquine inhibits stimulated platelets at the arachidonic acid pathway

Nosáľ

Jančinová

Petríková

1995

Thrombosis Research

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Antiplatelet activity of carvedilol in comparison to propranolol

et al. 2002

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The non-selective vasodilating beta-blocker carvedilol was found to inhibit platelet aggregation as well as thromboxane B(2) formation more effectively than propranolol. The antiaggregatory activity of carvedilol decreased, depending on the stimulus used, in the following rank order of potency (in parentheses the respective mean inhibitory concentrations of carvedilol and propranolol are given in micromol/l): PMA (19 and 34) > thrombin (55 and 77) > Ca(2+)-ionophore A23187 (58 and 81) > epinephrine (86 and 118). However, aggregation of platelets activated with ADP was not affected by carvedilol in concentrations up to 100 micromol/l. In platelets stimulated with thrombin, carvedilol (10 micromol/l) reduced thromboxane B(2) formation by 64%, whereas propranolol was ineffective at this concentration. Moreover, A23187-induced formation of thromboxane B(2), not affected by propranolol, was completely blocked by 100 micromol/l carvedilol. In comparison to propranolol, the molecule of carvedilol is more lipophilic and possesses lower dipole moment and higher molar refractivity, thus penetrating into platelet membranes readily and in large quantities. The antiplatelet effect was assumed to result from interactions of carvedilol with membrane macromolecules (phospholipids, ion channels, enzymes, etc.) rather than from blockade of alpha- and beta-adrenergic receptors.

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M. Petríková

On the inhibitory effect of chloroquine on blood platelet aggregation

Mechanism of anti-inflammatory action of liquorice extract and glycyrrhizin

Distribution of phenylethanolamine-N-methyltransferase in the rat heart: effect of 6-hydroxydopamine

Chloroquine inhibits stimulated platelets at the arachidonic acid pathway

Antiplatelet activity of carvedilol in comparison to propranolol

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